Ventilated shoe pad

ABSTRACT

A ventilated insole including a pad ( 10 ) having a bladder ( 20 ), an air entry ( 30 ), an air exit ( 40 ), an entry conduit ( 50 ) interconnecting the air entry ( 30 ) and the bladder ( 20 ), an exit conduit ( 60 ) interconnecting the bladder ( 20 ) and the air exit ( 40 ), and two one-way valves ( 70 ) wherein one one-way valve ( 70 ) is at a joining portion of the bladder ( 20 ) and the entry conduit ( 50 ) and the other one-way valve ( 70 ) is at a joining portion of the bladder ( 20 ) and the exit conduit ( 60 ). Each of the entry conduit ( 50 ) and the exit conduit ( 60 ) has a triangular section so as to increase resistance, thereby facilitating air flow in the entry conduit ( 50 ) and the exit conduit ( 60 ) and planarizing the pad ( 10 ). The insole can be disposed in one of a variety of shoes and brings a degree of comfort to wearer.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The invention relates to shoe soles and more particularly to a planarized ventilated insole including a plurality of conduits each having a triangular section so that fresh air can be introduced into the insole during walking for comforting and drying the footbed of a wearer.

2. Description of Related Art

Sole of a shoe is provided for wear resistant and cushioning purposes during walking. Further, comfort, shock absorbing capability and ventilation are a shoe sole are needed to consider in the devising stage.

Ventilation of most typical ventilated insoles is achieved by cooperating with other layers of a sole or being integrally formed therewith. For example, Taiwan Utility model No. 180,846 entitled “Removable ventilated insole” discloses an internal bladder, a one-way entry valve, and a one-way exit valve. The entry and exit valves are removably provided at one side of the bladder for communicating air with the exterior of a shoe. The bladder and adjacent valves are removably disposed in a cavity at a front portion of the sole. Taiwan Utility model No. M312,209 entitled “Unitary ventilated insole” discloses a projection on a heel, the projection including a hollow cylinder having a central stem as support and a plurality of entry and exit troughs on a periphery communicating with the hollow cylinder. However, a wearer cannot replace the ventilated insole when it is worn due to its unitary characteristics. Further, it is useless when it is removed. This can adversely decrease the applicability of the ventilated insole and thus decrease consumer's selections.

For allowing consumers to replace a worn ventilated insole by themselves, a number of removable ventilated insoles have been devised. For example, Taiwan Publication No. 200624048, entitled “ventilated insole” discloses a main layer, a spacer layer, a first and a second one-way valve, and a bladder. The bladder communicates with the aperture. The first one-way valve is between the main layer and the spacer layer for introducing external air into the bladder. The second one-way valve is between the main layer and the spacer layer for exiting smell air from the aperture to the atmosphere. However, it is disadvantageous because the bladder is too large to sufficiently suck air or purge air. As a result, air in the bladder is still rather than being expelled or refreshed by external air. The ventilation effect is very poor.

Among prior art literature, a number of patents regarding ventilated insole which allow users to replace the worn insole and have conduits for purging air are disclosed. For example, Taiwan Utility Model No. 515,243, entitled “removable ventilated insole” discloses a pad, a bladder, at least one entry conduit, a first one-way valve in the entry conduit, at least one exit conduit, and a second one-way valve in the exit conduit. The bladder is in the heel of the pad and is comprised of internal elastic members of springs. Entry and exit are provided on the bladder and connected to the entry and exit conduits respectively. The footbed intermittently presses bladder during walking so as to introduce fresh air into the bladder through the entry conduit and exit smell air from the bladder to the atmosphere through the exit conduit. However, a number of drawbacks have been found in the removable ventilated insole having entry and exit conduits as detailed below.

1. The entry and exit conduits are liable to block because if they are made of flexible material.

2. A wearer may have a feeling of pain because something hard touches his/her footbed during walking if the entry and exit conduits are made of hard material.

3. The exposed bladder is liable to wear and thus an uneven surface is formed on the outsole. To the worse, the wearer may slip during walking due to decreased friction.

4. The single conduit arrangement can purge air to the front of the footbed, thereby limiting air flow in a single path between two specific toes.

5. The exposed bladder can be blocked by foreign objects if it is worn. Further, the wearer may have a feeling of uncomfortable when the footbed touches the curved one-way valve.

6. The elastic members of springs inside the bladder may hurt the foot during walking after aging. In view of above problems including being no provision of planarized ventilated insole and unsuccessful commercialization experienced by the prior art, the inventor thus devises a novel ventilated insole by eliminating the prior problems. The ventilated insole of the invention is thin, simple, easy to manufacture, durable, comfort during walking, and appropriate for mass production.

SUMMARY OF THE INVENTION

It is therefore one object of the invention to provide a planarized ventilated insole for carrying out forced ventilation through the shoe during walking. Further, the insole can be disposed in one of a variety of shoes and brings a degree of comfort and dryness to the foot of a wearer.

In a first aspect of the invention, there is provided a planarized ventilated insole comprising a pad comprising an upper member and a lower member secured to the upper member; a bladder disposed in the pad; an air entry disposed in the pad; an air exit disposed in the pad; an entry conduit disposed in the pad for interconnecting the air entry and the bladder; at least one exit conduit disposed in the pad for interconnecting the bladder and the air exit; and two one-way valves wherein one one-way valve is disposed at a joining portion of the bladder and the entry conduit and the other one-way valve is disposed at a joining portion of the bladder and the at least one exit conduit; wherein the lower member covers both the entry conduit and the at least one exit conduit from below; wherein the upper member comprises an upper opening with an upward arched upper half of the bladder fastened therein; wherein the lower member comprises a lower opening with a downward arched lower half of the bladder fastened therein; and wherein each of the entry conduit and the at least one exit conduit has a triangular section so as to increase resistance to external force, thereby facilitating air flow in the entry conduit and the at least one exit conduit and planarizing the pad.

Preferably, thickness of the pad externally of the bladder is in the range of about 2 cm to 5 cm.

Preferably, further comprises a plurality of equally spaced ribs radially extending from a center of the bladder to a periphery thereof wherein each of the ribs has a longitudinal section of half circle having an area gradually increased from a first end at the center of the bladder to a second end at the periphery of the bladder.

Preferably, further comprises a lengthwise arched ridge disposed in the entry conduit and a lengthwise arched ridge disposed in the exit conduit respectively.

Preferably, the air exit comprises a transverse exit groove under the pad and connecting to the exit conduit, and a plurality of exit apertures in the exit groove through the upper member, and wherein the air entry is concave on a rear end of the pad.

Preferably, each of the exit apertures comprises an arched top.

Preferably, the bladder comprises two channels at an edge, each channel having one of the one-way valves disposed therein and including a well; wherein each of the one-way valves comprises a divider plate including a through hole, and a flap including a hinge secured to the divider plate; and wherein the flap is vertical to close the through hole when no force is exerted on the bladder.

Preferably, the bladder comprises two tunnels each having an oval longitudinal section for disposing one of the one-way valves therein; wherein each of the one-way valves comprises an outer sleeve including a lengthwise slit on an outer surface and having a first end open to the bladder and a second end formed with a through hole, an inner sleeve of an oval longitudinal section, the inner sleeve including a lengthwise ridge on an outer surface, the ridge being inserted into the slit for assembling the outer and inner sleeves, and a flap pivotably secured to a first end of the inner sleeve, the flap being vertical to close the through hole when no force is exerted on the bladder.

In a second aspect of the invention, there is provided a planarized ventilated insole comprising a pad; an air entry disposed in the pad; and an air exit disposed in the pad; wherein the pad comprises an upper member, an upward arched upper element integrally formed with the upper member, a lower member secured to the upper member, and a downward arched lower element integrally formed with the lower member wherein the upper and lower elements are attached together to form a bladder.

Preferably, further comprises a plurality of spaced ribs radially extending from a center of the upper element to a periphery thereof, each of the ribs being of a longitudinal section of half circle and having an area gradually increased from a first end at the center of the upper element to a second other end at the periphery thereof; and a plurality of spaced ribs radially extending from a center of the lower element to a periphery thereof, each of the ribs being of a longitudinal section of half circle and having an area gradually increased from a first end at the center of the lower element to a second other end at the periphery thereof.

By utilizing the invention, the following advantages can be obtained:

1. No conducts are required to mount in the insole. Thickness of the pad externally of the bladder is planarized to be in the range of about 2 cm to 5 cm. A wearer may not have a feeling of pain because something hard touches his/her footbed during walking. Wearer can feel a degree of comfort during walking.

2. With the triangular sections of the entry conduit interconnecting the air entry and the bladder and the exit conduit interconnecting the bladder and the air exit rather than the typical circular section, pointed tops of the exit conduit and the entry conduit have are not liable to become flat or block when pressure is built thereon during walking. Further, the pad can be made thinner with decreased thickness. As a result, a wearer may feel a degree of comfort when wearing shoes incorporating the ventilated insoles during walking.

3. A plurality of equally spaced ribs radially extend from a center of the bladder to a periphery thereof wherein each of the ribs has a longitudinal section of half circle having an area gradually increased from a first end at the center of the bladder to a second end at the periphery of the bladder. As a result, the bladder is capable of quickly returning to its original shape after releasing pressure exerted thereon.

4. The one-way valves are easy to manufacture, install, and replace and are durable.

5. The one-way valves having an oval longitudinal section can decrease height (i.e., thickness) of the bladder to a minimum. In addition to correct positioning, it is an error-proof design to prevent an erroneous installation from occurring.

6. The one-way valves are disposed in the bladder and thus a wearer may not have a feeling of pain due to projections contacting his/her footbed during walking. Further, locations of air entry and air exit are not interfered. For example, the air entry can be disposed in a rear end of the pad. This eliminates the need of mounting a valve in an opening on an outer surface of outsole as experienced by the typical ventilated insole.

7. The air exit is provided under the pad corresponding to the toes at the front of the footbed. Thus, the exit apertures correspond to the gaps between the toes and each exit aperture has an arched top. As a result, the exit apertures are not liable to be flattened or blocked by applying force thereon.

The above and other objects, features and advantages of the invention will become apparent from the following detailed description taken with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a ventilated insole according to a first preferred embodiment of the invention;

FIG. 1A is another perspective of the ventilated insole of FIG. 1;

FIG. 2 is an exploded view of the ventilated insole of FIG. 1;

FIG. 2X a detailed view of a circle X of FIG. 2 and FIG. 2Y a detailed view of a circle Y of FIG. 2 respectively;

FIG. 3 is a longitudinal sectional view of the air exit of FIG. 1;

FIG. 4 is a perspective view of the bladder of FIG. 1;

FIGS. 4A, 4B and 4C are broken away perspective views showing steps of mounting the one-way valve in the bladder;

FIG. 5 is a fragmentary perspective view of a ventilated insole according to a second preferred embodiment of the invention;

FIG. 5A is a detailed view of a circle of FIG. 5;

FIG. 6 is a longitudinal sectional view of FIG. 5;

FIG. 7 is a fragmentary view of FIG. 6 showing air being introduced into the bladder with the bladder being expanded;

FIG. 7A is a detailed view of a circle of FIG. 7;

FIG. 8 is a view similar to FIG. 7 showing air being expelled out of the bladder with the bladder being contracted after a result of pressing by the footbed;

FIG. 8A is a detailed view of a circle of FIG. 8;

FIG. 9 is an exploded view of the bladder of FIG. 5;

FIGS. 9A, 9B and 9C are views showing the construction of the one-way valve of FIG. 5A;

FIG. 10 is an exploded view of a ventilated insole according to a third preferred embodiment of the invention;

FIG. 10A is a detailed view of the left circle of FIG. 10 showing entry conduit and

FIG. 10B is a detailed view of the right circle of FIG. 10 showing exit conduit respectively;

FIG. 11 is a fragmentary view of the heel portion of the ventilated insole of FIG. 10 but viewing from the bottom;

FIG. 11A is an enlarged broken away view of the air entry of FIG. 11;

FIG. 12 is a side elevation of a shoe showing the ventilated insole of FIG. 10 disposed therein;

FIG. 13 is a top view of the ventilated insole of FIG. 10 schematically showing the footbed thereon;

FIG. 14 is a longitudinal sectional view of the air entry and adjacent components of FIG. 11;

FIG. 14A is a view similar to FIG. 14 showing a depressing thereof during walking;

FIG. 15 is an exploded view of a ventilated insole according to a fourth preferred embodiment of the invention;

FIG. 15A is a fragmentary view of the left part of FIG. 15 and FIG. 15B is a fragmentary view of the right part of FIG. 15 respectively; and

FIG. 16 is a longitudinal sectional view of the assembled ventilated insole of FIG. 15.

DETAILED DESCRIPTION OF THE INVENTION

Referring to FIGS. 1 to 4C, a ventilated insole in accordance with a first preferred embodiment of the invention is shown in which FIG. 1 is a perspective view of a ventilated insole according to the first preferred embodiment of the invention, FIG. 1A is another perspective of the ventilated insole of FIG. 1 and FIG. 2 is an exploded view of the ventilated insole of FIG. 1. The ventilated insole comprises a pad 10, a bladder 20 in the pad 10 proximate a heel portion, an air entry 30 on a rear end of the pad 10, an air exit 40 in the pad 10 proximate a toe portion, an entry conduit 50 interconnecting the bladder 20 and the air entry 30, and at least one exit conduit 60 (one being shown) interconnecting the bladder 20 and the air exit 40.

The pad 10 comprises an upper member 11 and a lower member 12 secured to the upper member 11. Each of the entry conduit 50 and the exit conduit 60 has a triangular section (see FIGS. 2X and 2Y) and is disposed on the bottom of the upper member 11. The lower member 12 is adapted to cover the entry conduit 50 and the exit conduit 60 from below. With the triangular sections of the entry conduit 50 and the exit conduit 60, the entry conduit 50 and the exit conduit 60 have pointed tops which are not liable to become flat or block when pressure is built thereon during walking. Further, the pad 10 can be made thinner with decreased thickness. As a result, a wearer may feel a degree of comfort when wearing shoes incorporating the ventilated insoles during walking (see FIG. 10).

Thickness of the pad 10 externally of the bladder 20 is in the range of about 2 cm to 5 cm.

The upper member 11 comprises an upper opening 111 with an upward arched upper half of the bladder 20 fitted therein, and a plurality of projections 112 on a top, the projections 112 being for massaging the footbed. The upper member 11 further comprises a plurality of protrusions 113 on a bottom, the protrusions 113 being for pressing acupuncture points on the footbed (see FIG. 1A). The lower member 12 comprises a lower opening 121 with a downward arched lower half of the bladder 20 fitted therein. The air entry 30 is on a rear end of the pad 10.

Refer to FIG. 3 in conjunction with FIG. 2 in which FIG. 3 is a longitudinal sectional view of the air exit 40 of the first preferred embodiment of the invention. The air exit 40 comprises a transverse exit groove 41 connecting to the exit conduit 60 and being under the pad 10, a plurality of exit apertures 42 in the exit groove 41 through the upper member 11, each exit aperture 42 having an arched top 43, and a plurality of half cylindrical pegs 44 on the edge of the exit groove 41, the half cylindrical pegs 44 being projecting into the exit groove 41 for increasing the structural strength of the exit groove 41. The exit conduit 60 is connected to the exit apertures 42.

Refer to FIG. 4 and FIGS. 4A to 4C in conjunction with FIG. 2 according to the first preferred embodiment of the invention in which FIG. 4 is a perspective view of the bladder 20 of FIG. 1, and FIGS. 4A, 4B and 4C are broken away perspective views showing steps of mounting the one-way valve 70 in the bladder 20. The bladder 20 is shaped as a flying soccer. One one-way valve 70 is on an edge of the bladder 20 communicating with the entry conduit 50, and the other one-way valve 70 is on the edge of the bladder 20 opposite to the first one-way valve 70 and communicating with the exit conduit 60.

The bladder 20 comprises a channel 21 communicating with inside of the bladder 20 and the external thereof with each one-way valve 70 disposed therein, and a U-shape well 22 vertically disposed in the channel 21. Each one-way valve 70 comprises a divider plate 71 and a flap 72 having a hinge 73 secured to the divider plate 71.

The divider plate 71 has a central through hole 711. Both sides and bottom of the divider plate 71 is sealingly fastened in the well 22 so that fresh air can only communicate from the entry conduit 50 to the bladder 20 through the through hole 711 of one one-way valve 70 and foul air can only communicate from the bladder 20 to the exit conduit 60 through the through hole 711 of the other one-way valve 70. The divider plate 71 and the flap 72 of each one-way valve 70 are formed integrally from the same material with the hinge 73 of the same material made thinner.

The flap 72 is vertical to close one mouth of the through hole 711 due to gravity when the bladder 20 is not pressed. That is, fresh air can only communicate through the through hole 711 and the flap 72 of one one-way valve 70 to inside of the bladder 20 by pivotably pushing the flap 72 upward. In other words, air inside the bladder 20 is not allowed to exit by passing through the flap 72 and the through hole 711 of one one-way valve 70. The divider plate 71 is shaped as trapezoid so as to prevent it from being incorrectly disposed in the complementarily shaped well 22 during installation.

Further, a plurality of equally spaced ribs 23 radially extend from a center of the bladder 20 to a periphery thereof. The rib 23 has a longitudinal section of half circle having an area gradually increased from one end at the center of the bladder 20 to the other end at the periphery of the bladder 20. Thus, in response to being flexibly depressed, the bladder 20 can be quickly returned to its original shape after the depressing force is released.

The flap 72 of the other one-way valve 70 is at one end of the exit conduit 60. Thus, air in the bladder 20 can only communicate through the through hole 711 and the flap 72 of the other one-way valve 70 to enter the exit conduit 60. In other words, foul air in the bladder 20 can only communicate through the through hole 711 and the flap 72 of the other one-way valve 70 to enter the exit conduit 60 for exiting during walking.

The flap 72 of one one-way valve 70 is provided between the divider plate 71 and inside of the bladder 20 so that air is only allowed to enter the bladder 20 by pivotably upward pushing the flap 72. A partial vacuum is created in the bladder 20 when a person wearing the shoe incorporating the ventilated insole lifts his/her foot. Thus, fresh air is introduced into the bladder 20 via the air entry 30, the entry conduit 50 and one one-way valve 70 and next foul air is purged out of the bladder 20 by leaving the other one-way valve 70, the exit conduit 60 and the air exit 40 in response to the footbed of the wearer pressing the bladder 20.

Referring to FIGS. 5 to 9C, a ventilated insole in accordance with a second preferred embodiment of the invention is shown. The characteristics of the second preferred embodiment are substantially the same as that of the first preferred embodiment except the following: The bladder 20 comprises two tunnels 24 each having an oval longitudinal section for disposing either one-way valve 70 therein. Either one-way valve 70 comprises an outer sleeve 74 having one end open to the bladder 20 and the other end formed with a through hole 75, a lengthwise slit 741 on an outer surface of the outer sleeve 74, an inner sleeve 76 having an oval longitudinal section, a lengthwise ridge 761 on an outer surface of the inner sleeve 76, the ridge 761 being adapted to insert into the slit 741 for assembling the outer and inner sleeves 74, 76 in an error-proof manner. For facilitating manufacturing and quality control, a flap 77 is pivotably secured to the other end of the inner sleeve 76. The flap 77 is vertical to close the through hole 75. One end of the inner sleeve 76 is open to the bladder 20.

Air introduction and air exit operations of the second preferred embodiment are the same as that of the first preferred embodiment. Air in the bladder 20 is only allowed to leave through the flap 77 of the other one-way valve 70 connected to the exit conduit 60 (see FIGS. 8 and 8A). In short, air in the bladder 20 is expelled out to the atmosphere via the other one-way valve 70 and the exit conduit 60 in response to pressing the bladder 20 by the footbed of a wearer during walking. Fresh air is introduced into the bladder 20 via the entry conduit 50 and the flap 77 of one one-way valve 70 connected to the entry conduit 50 (see FIGS. 7 and 7A). A partial vacuum is created in the flexibly expanding bladder 20 when a person wearing the shoe incorporating the ventilated insole lifts his/her foot. Thus, fresh air is introduced into the bladder 20 via the entry conduit 50 and one one-way valve 70 and next foul air is out of the bladder 20 by leaving the other one-way valve 70, the exit conduit 60 and the air exit 40 in response to the footbed of the wearer pressing the bladder 20.

Referring to FIGS. 10 to 14A, a ventilated insole in accordance with a third preferred embodiment of the invention is shown in which FIG. 10 is an exploded view of a ventilated insole according to the third preferred embodiment of the invention, and

FIG. 11 is a fragmentary view of the heel portion of the ventilated insole of FIG. 10 but viewing from the bottom. In FIG. 10, the pad 10 is exploded in a sequence opposite to that of FIG. 2 in which the lower member 12 is correspondingly disposed on top of the upper member 11.

In the third preferred embodiment, as shown in FIGS. 10A and 10B, for facilitating air flow a lengthwise arched ridge 51 is provided in the entry conduit 50 and a lengthwise arched ridge 61 is provided in the exit conduit 60 respectively. The provision of the ridges 51, 61 thus can increase flexibility of the entry conduit 50 and the exit conduit 60. In detail, force exerted from tops of the entry conduit 50 and the exit conduit 60 can be withstood by the ridges 51, 61 so as to ensure a smooth air flow through the entry conduit 50 and the exit conduit 60 even when the entry conduit 50 and the exit conduit 60 are compressed to their minimums (see FIG. 14).

As shown in FIGS. 11 and 11A, on an upper portion of the air entry 30, the upper member 11 comprises a thin piece 31 including a plurality of small apertures 311 for flowing air so that foreign objects are prevented from entering the triangular concave end of the entry conduit 50 to block same. It is desired that the foreign objects are prevented from entering the rear opening of the entry conduit 50 without interfering with air introduction.

Refer to FIGS. 12 and 13 in which FIG. 12 is a side elevation of a shoe 100 showing the ventilated insole of FIG. 10 disposed therein, and FIG. 13 is a top view of the ventilated insole of FIG. 10 schematically showing the footbed thereon. Preferably, for enabling a user to install the ventilated insole of the invention in the shoe 100, the bladder 20 is provided at position at the heel 200, the air entry 30 is provided on a rear end of the pad 10 corresponding to a rear end 201 of the heel 200, and the air exit 40 is provided under the pad 10 corresponding to the toes 203 at the front of the footbed 202. Thus, the exit apertures 42 correspond to the gaps 204 between the toes 203. As a result, a maximum air introduction and expelling effect can be brought about to sufficiently dry the footbed and bring a degree of comfort thereto.

Referring to FIGS. 15 to 16, a ventilated insole in accordance with a fourth preferred embodiment of the invention is shown in which FIG. 15 is an exploded view of a ventilated insole according to the fourth preferred embodiment of the invention, FIG. 15A is a fragmentary view of the left part of FIG. 15, and FIG. 15B is a fragmentary view of the right part of FIG. 15 respectively. In the fourth preferred embodiment, the pad 10A comprises an upper member 11A, an upward arched upper element 111A integrally formed with the upper member 11A, a lower member 12A secured to the upper member 11A, and a downward arched lower element 121A integrally formed with the lower member 12A. The upper and lower elements 111A and 121A are attached together to form a bladder (see FIG. 16). This can simplify the assembly and the manufacturing processes.

A plurality of equally spaced ribs 13A are radially extend from a center of the arched upper element 111A to a periphery thereof. The rib 13A has a longitudinal section of half circle having an area gradually increased from one end at the center of the arched upper element 111A to the other end at the periphery of the arched upper element 111A. A plurality of equally spaced ribs 14A radially extend from a center of the arched lower element 121A to a periphery thereof. The rib 14A has a longitudinal section of half circle having an area gradually increased from one end at the center of the arched lower element 121A to the other end at the periphery of the arched lower element 121A. Thus, in response to being flexibly depressed, the arched upper and lower members 111A and 121A can be quickly returned to its original shape after the depressing force is released. This effect is the same as that described in the first preferred embodiment.

While the invention has been described in terms of preferred embodiments, those skilled in the art will recognize that the invention can be practiced with modifications within the spirit and scope of the appended claims. 

What is claimed is:
 1. A planarized ventilated insole comprising: a pad (10) comprising an upper member (11) and a lower member (12) secured to the upper member (11); a bladder (20) disposed in the pad (10); an air entry (30) disposed in the pad (10); an air exit (40) disposed in the pad (10); an entry conduit (50) disposed in the pad (10) for interconnecting the air entry (30) and the bladder (20); at least one exit conduit (60) disposed in the pad (10) for interconnecting the bladder (20) and the air exit (40); and two one-way valves (70) wherein one one-way valve (70) is disposed at a joining portion of the bladder (20) and the entry conduit (50) and the other one-way valve (70) is disposed at a joining portion of the bladder (20) and the at least one exit conduit (60); wherein the lower member (12) covers both the entry conduit (50) and the at least one exit conduit (60) from below; wherein the upper member (11) comprises an upper opening (111) with an upward arched upper half of the bladder (20) fastened therein; wherein the lower member (12) comprises a lower opening (121) with a downward arched lower half of the bladder (20) fastened therein; and wherein each of the entry conduit (50) and the at least one exit conduit (60) has a triangular section so as to increase resistance to external force, thereby facilitating air flow in the entry conduit (50) and the at least one exit conduit (60) and planarizing the pad (10).
 2. The planarized ventilated insole of claim 1, wherein thickness of the pad (10) externally of the bladder (20) is in the range of about 2 cm to 5 cm.
 3. The planarized ventilated insole of claim 1, further comprising a plurality of equally spaced ribs (23) radially extending from a center of the bladder (20) to a periphery thereof wherein each of the ribs (23) has a longitudinal section of half circle having an area gradually increased from a first end at the center of the bladder (20) to a second end at the periphery of the bladder (20).
 4. The planarized ventilated insole of claim 1, further comprising a lengthwise arched ridge (51) disposed in the entry conduit (50) and a lengthwise arched ridge (61) disposed in the exit conduit (60) respectively.
 5. The planarized ventilated insole of claim 1, wherein the air exit (40) comprises a transverse exit groove (41) under the pad (10) and connecting to the exit conduit (60), and a plurality of exit apertures (42) in the exit groove (41) through the upper member (11), and wherein the air entry (30) is concave on a rear end of the pad (10).
 6. The planarized ventilated insole of claim 5, wherein each of the exit apertures (42) comprises an arched top (43).
 7. The planarized ventilated insole of claim 1, wherein the bladder (20) comprises two channels (21) at an edge, each channel (21) having one of the one-way valves (70) disposed therein and including a well (22) vertically provided in the channel 21; wherein each of the one-way valves (70) comprises a divider plate (71), adapted to be sealingly fastened in the well 22, including a through hole (711), and a flap (72) including a hinge (73) secured to the divider plate (71); and wherein the flap (72) is vertical to close the through hole (711) when no force is exerted on the bladder (20).
 8. The planarized ventilated insole of claim 1, wherein the bladder (20) comprises two tunnels (24) each having an oval longitudinal section for disposing one of the one-way valves (70) therein; wherein each of the one-way valves (70) comprises an outer sleeve (74) including a lengthwise slit (741) on an outer surface and having a first end open to the bladder (20) and a second end formed with a through hole (75), an inner sleeve (76) of an oval longitudinal section, the inner sleeve (76) including a lengthwise ridge (761) on an outer surface, the ridge (761) being inserted into the slit (741) for assembling the outer and inner sleeves (74, 76), and a flap (77) pivotably secured to a first end of the inner sleeve (76), the flap (77) being vertical to close the through hole (75) when no force is exerted on the bladder (20).
 9. A planarized ventilated insole comprising: a pad (10A); an air entry (30) disposed in the pad (10A); and an air exit (40) disposed in the pad (10A); wherein the pad (10A) comprises an upper member (11A), an upward arched upper element (111A) integrally formed with the upper member (11A), a lower member (12A) secured to the upper member (11A), and a downward arched lower element (121A) integrally formed with the lower member (12A) wherein the upper and lower elements (111A, 121A) are attached together to form a bladder.
 10. The planarized ventilated insole of claim 9, further comprising a plurality of spaced ribs (13A) radially extending from a center of the upper element (111A) to a periphery thereof, each of the ribs (13A) being of a longitudinal section of half circle and having an area gradually increased from a first end at the center of the upper element (111A) to a second other end at the periphery thereof; and a plurality of spaced ribs (14A) radially extending from a center of the lower element (121A) to a periphery thereof, each of the ribs (14A) being of a longitudinal section of half circle and having an area gradually increased from a first end at the center of the lower element (121A) to a second other end at the periphery thereof. 